| Gene Symbol | ATEG_01112 |
| Entrez Gene ID | 4315668 |
| Full Name | ATP-dependent protease La |
| Gene Type | protein-coding |
| Organism | Aspergillus terreus NIH2624 |
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ATEG_01112 cDNA ORF clone, Aspergillus terreus NIH2624
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Gene
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Clones
gRNAs
The following ATEG_01112 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATEG_01112 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.
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Reference Sequences (Refseq)
CloneID OAj00133 Clone ID Related Accession (Same CDS sequence) XM_001208477.1 Accession Version XM_001208477.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3360bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1206806400000 Organism Aspergillus terreus NIH2624 Product ATP-dependent protease La Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NT_165925). COMPLETENESS: incomplete on both ends.
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGCTCCGCG GCCAGACCCT CCCCTGGAGA GCCGCGCTCC AACAAACACC GCGTCAGCTG
TTCATTCGAC CTTCGCTAGC TGCACCGAGA TACAATGTCG TTGCTCGATC CGTTCTAGTC
CCATCGCGTC TCTCCCGGTC GCTTCCACCG GTCTCCCGAC CCTTTTCCTC GAGCTCCATC
CGCCGAAGAG AGAAACCCCC GCCCGGAGAC GAAAAGGAGG ACCCGGAACA GAAGGATCAG
AAAGAGGAAG TCGAGGAGAA GGATGCTGAG CGTCCCTCAG AACCCCGGCG AAAGCCAATT
GAGCAATCGG GGAAGCAGGG GTCGCCTGAC TCGGGAACTC CGACATCGGG ATTCGCACGA
CGGAAGGAAA GATCGGCGGG AGAGAAAGAA CAGCGTGCTC TAGAGGAAGA TTCGAAGAAG
GAAAATAACG CGGCCGAAGG AAAAGAAGGA AAAGCAAACA ATGATATACC TCCGTCCCCT
ATACCGGTCA GTGGTGGCGG CTCGGATTCC AAACCCAGCG GGGCGAACAA TGGAGGCAAC
GAAGATGGCG GAAAGAAGGG GAAGAAGGGG TCCGGTGAGA AGGCACTTCA GAAGCCATCT
GTACCAGAGG TGTACCCCCA GGTGATGGCC ATCCCTATCG CCAAACGTCC GTTGTTCCCG
GGTTTTTACA AGGCCATTAC CATTCGGGAC CCCAATGTGG CCACCGCGAT CCAGGAGATG
ATGAAGCGGG GTCAACCGTA CGTTGGTGCT TTCTTGTTCA AGGATGAAAA TGCCGATGGC
GATGTGATCG AGAAACTGGA CGACGTGTAT GATGTCGGTG TTTTCGCCCA GATTACTGCT
GCGTACCCTC TTCGCGGGGA GGCCAGTGGC GTCACCGCCG TGCTCTACCC TCATCGTCGC
ATCAAAGTAT CCTCACTACT CCCCCCTAAC GACACGAAGC CCACACCGAC TGCGGAAGAG
AAGTCCACCG AGAAGCGTGG CGATGTCGTC GCCAGTTTTG AGGAGGGGGC TACGGATCTC
GCACCGAAGG ATCACTACGA GCCGACGTCG TTCTTGCGCA AATATCCTGT TAGCTTAGTC
AATGTTGAGA ATCTCGCGGA AGAGCCCTAC GACAAAAAGA GCGCCATCAT CCGTGCAGTG
ACCAGTGAGA TTGTGAATGT CTGCAAGGAA ATCGCCAGCC TGAATCCCCT GTTCCGTGAC
CAGATCTCCG CCTTTTATAC CGATCAGTTC CCCGGTAACC TCAGCGATGA GCCGGCCAAG
CTGGCAGATT TCGCCGCAGC CGTGTCCGCT GGAGAACTCC ACGAAATGCA AGAGGTTCTG
GAGCTGATGA ACATCGAGGA ACGACTGCCG AAGGCTCTCG TTGTGTTGAA GAAGGAATTG
ATGAATGCGC AGCTTCAGTC CAAGATCTCC AAGGACGTGG AAGCGAAAAT CCAGAAGCGG
CAACGGGAGT ACTGGTTGAT GGAGCAGATG AAGGGCATCA AGAGGGAGTT GGGCATCGAG
TCCGACGGCA AGGACAAGCT GGTCGAGAAG TTCAAGGAGA AGGCAGAGAA GTTGGCTATG
CCTGATGCTG TCAAGAAAGT GTTTGATGAG GAAATCAACA AGCTGGCTCA TCTGGAACCT
GCTGCCTCAG AGTTCAATGT TACCCGCAAC TATCTCGACT GGCTGACTCA AATTCCTTGG
GGCCAGAAGA GCGTGGAGAA CTTTGGAATC AAGCATGCAA CCAGTGTTTT GGACGAGGAT
CACTACGGGT TGAAGGATGT CAAAGATCGG ATCCTCGAGT TCATTGCCGT GGGCAAGCTC
CGTGGCACGG TTGAAGGCAA GATCCTGTGC CTCGTGGGGC CTCCCGGTGT TGGAAAGACT
AGTATTGGAA AGTCGATCGC TCGCGCCCTG AACAGACAGT ACTATCGCTT TTCTGTGGGA
GGTCTGACCG ATGTTGCGGA GATCAAGGGT CACCGGAGAA CCTATGTCGG GGCTCTCCCC
GGACGTATCA TCCAGGCTCT CAAGAAATGC CAGACCGAGA ACCCTCTGAT CTTGATCGAT
GAAATTGACA AGATCGGCCG GGGTCATCAA GGGGACCCGT CCTCTGCTCT ACTTGAACTG
CTTGACCCGG AGCAGAACTC GTCCTTCTTG GACCACTACA TGGATGTCCC AGTTGACTTG
TCTAAAGTTC TCTTTGTTTG CACTGCGAAT GTCACTGACA CCATTCCCCG TCCTCTCTTG
GACCGTATGG AGCTCATTGA ACTGTCTGGC TATGTTGCCG ATGAGAAGAT GGCGATTGCT
GATCGCTATC TTGCCCCAGC AGCTAGGGAG CTGACCGGTC TCAAGGATGT GGACGTTTCT
TTGACCCAGG AGGCTATTGA GGAGCTTATC AAATCCTACT GCCGCGAGAG CGGAGTGCGA
AACCTGAAAA AGCAGATTGA GAAGGTTTAT CGCAAGGCCG CTTTCAACAT CGTTCGGGAT
CTTGGTGAAG ACGTTCTTGC CGAAGAAAAA GCTATCACGG ATGAAGGCAA AGCGGCGCAG
GAGGAAGCCA AGAAGGAGGA AGAGACCAGC GATGCTGATG CGTCTCACGC TGAGTCGGAG
AAGTCGACTG CTGAGACGCC CCGTGTGGCG TTGAAGGTCC CTGAGAGTGT GCATGTCCGT
ATCGGCAAGG ACAGCTTGAC TGACTATGTT GGTCCTCCGA TTTTTACCTC TGATCGATTG
TATGAGACGT TCCCGCCTGG TGTGACTATG GGCCTCGCGT GGACTAGCAT GGGAGGTGCG
GCCTTGTATG TTGAGTCCAT TCTGGAGAAC GCTTTGACAG CCGAGTCTCG CCCGGGCATC
GAAATTACTG GCAACCTGCA GAACGTGATG AAGGAATCAT CCCACATCGC ATACTCTTTT
GCGAAGTCGG TGATGGCTCG TGAATTCCCG GAGAACAGAT TCTTTGAAAA GGCGAAGTTG
CATATGCATT GCCCGGAGGG TGCTGTTCCG AAGGATGGAC CCTCGGCCGG TATTACAATG
GCCACCTCTC TCCTTTCCCT GGCGCTGAAC CACCCTCTCG ATCCGACAAT TGCCATGACC
GGTGAGTTGA CGGTTACTGG AAAGGTGCTG CGTATTGGTG GACTCCGAGA GAAGACTGTT
GCTGCTCGCC GTGCTGGTGC GACGAAGATC ATCTTCCCTG CCGATAACAT GTCCGATTGG
CTGGAACTTC CTGAGAACAT CAAAGAAGGC ATCGAAGGCC ATCCCGCGAG CTGGTACTCC
GAAGTGTTCG ACATCCTGTT TGCCGACCTG GACAAGAACG CTGCCAACCA GATGTGGAAG
AAGCAGCTCA AGGAGGCCCC GAAGAAGTCC AAGGAATCTC ACGAGGAAGA AGACGACTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001208477.1 CDS 1..3360 Translation 
Target ORF information:
RefSeq Version XM_001208477.1 Organism Aspergillus terreus NIH2624 Definition Aspergillus terreus NIH2624 ATP-dependent protease La (ATEG_01112) partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001208477.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGCTCCGCG GCCAGACCCT CCCCTGGAGA GCCGCGCTCC AACAAACACC GCGTCAGCTG
TTCATTCGAC CTTCGCTAGC TGCACCGAGA TACAATGTCG TTGCTCGATC CGTTCTAGTC
CCATCGCGTC TCTCCCGGTC GCTTCCACCG GTCTCCCGAC CCTTTTCCTC GAGCTCCATC
CGCCGAAGAG AGAAACCCCC GCCCGGAGAC GAAAAGGAGG ACCCGGAACA GAAGGATCAG
AAAGAGGAAG TCGAGGAGAA GGATGCTGAG CGTCCCTCAG AACCCCGGCG AAAGCCAATT
GAGCAATCGG GGAAGCAGGG GTCGCCTGAC TCGGGAACTC CGACATCGGG ATTCGCACGA
CGGAAGGAAA GATCGGCGGG AGAGAAAGAA CAGCGTGCTC TAGAGGAAGA TTCGAAGAAG
GAAAATAACG CGGCCGAAGG AAAAGAAGGA AAAGCAAACA ATGATATACC TCCGTCCCCT
ATACCGGTCA GTGGTGGCGG CTCGGATTCC AAACCCAGCG GGGCGAACAA TGGAGGCAAC
GAAGATGGCG GAAAGAAGGG GAAGAAGGGG TCCGGTGAGA AGGCACTTCA GAAGCCATCT
GTACCAGAGG TGTACCCCCA GGTGATGGCC ATCCCTATCG CCAAACGTCC GTTGTTCCCG
GGTTTTTACA AGGCCATTAC CATTCGGGAC CCCAATGTGG CCACCGCGAT CCAGGAGATG
ATGAAGCGGG GTCAACCGTA CGTTGGTGCT TTCTTGTTCA AGGATGAAAA TGCCGATGGC
GATGTGATCG AGAAACTGGA CGACGTGTAT GATGTCGGTG TTTTCGCCCA GATTACTGCT
GCGTACCCTC TTCGCGGGGA GGCCAGTGGC GTCACCGCCG TGCTCTACCC TCATCGTCGC
ATCAAAGTAT CCTCACTACT CCCCCCTAAC GACACGAAGC CCACACCGAC TGCGGAAGAG
AAGTCCACCG AGAAGCGTGG CGATGTCGTC GCCAGTTTTG AGGAGGGGGC TACGGATCTC
GCACCGAAGG ATCACTACGA GCCGACGTCG TTCTTGCGCA AATATCCTGT TAGCTTAGTC
AATGTTGAGA ATCTCGCGGA AGAGCCCTAC GACAAAAAGA GCGCCATCAT CCGTGCAGTG
ACCAGTGAGA TTGTGAATGT CTGCAAGGAA ATCGCCAGCC TGAATCCCCT GTTCCGTGAC
CAGATCTCCG CCTTTTATAC CGATCAGTTC CCCGGTAACC TCAGCGATGA GCCGGCCAAG
CTGGCAGATT TCGCCGCAGC CGTGTCCGCT GGAGAACTCC ACGAAATGCA AGAGGTTCTG
GAGCTGATGA ACATCGAGGA ACGACTGCCG AAGGCTCTCG TTGTGTTGAA GAAGGAATTG
ATGAATGCGC AGCTTCAGTC CAAGATCTCC AAGGACGTGG AAGCGAAAAT CCAGAAGCGG
CAACGGGAGT ACTGGTTGAT GGAGCAGATG AAGGGCATCA AGAGGGAGTT GGGCATCGAG
TCCGACGGCA AGGACAAGCT GGTCGAGAAG TTCAAGGAGA AGGCAGAGAA GTTGGCTATG
CCTGATGCTG TCAAGAAAGT GTTTGATGAG GAAATCAACA AGCTGGCTCA TCTGGAACCT
GCTGCCTCAG AGTTCAATGT TACCCGCAAC TATCTCGACT GGCTGACTCA AATTCCTTGG
GGCCAGAAGA GCGTGGAGAA CTTTGGAATC AAGCATGCAA CCAGTGTTTT GGACGAGGAT
CACTACGGGT TGAAGGATGT CAAAGATCGG ATCCTCGAGT TCATTGCCGT GGGCAAGCTC
CGTGGCACGG TTGAAGGCAA GATCCTGTGC CTCGTGGGGC CTCCCGGTGT TGGAAAGACT
AGTATTGGAA AGTCGATCGC TCGCGCCCTG AACAGACAGT ACTATCGCTT TTCTGTGGGA
GGTCTGACCG ATGTTGCGGA GATCAAGGGT CACCGGAGAA CCTATGTCGG GGCTCTCCCC
GGACGTATCA TCCAGGCTCT CAAGAAATGC CAGACCGAGA ACCCTCTGAT CTTGATCGAT
GAAATTGACA AGATCGGCCG GGGTCATCAA GGGGACCCGT CCTCTGCTCT ACTTGAACTG
CTTGACCCGG AGCAGAACTC GTCCTTCTTG GACCACTACA TGGATGTCCC AGTTGACTTG
TCTAAAGTTC TCTTTGTTTG CACTGCGAAT GTCACTGACA CCATTCCCCG TCCTCTCTTG
GACCGTATGG AGCTCATTGA ACTGTCTGGC TATGTTGCCG ATGAGAAGAT GGCGATTGCT
GATCGCTATC TTGCCCCAGC AGCTAGGGAG CTGACCGGTC TCAAGGATGT GGACGTTTCT
TTGACCCAGG AGGCTATTGA GGAGCTTATC AAATCCTACT GCCGCGAGAG CGGAGTGCGA
AACCTGAAAA AGCAGATTGA GAAGGTTTAT CGCAAGGCCG CTTTCAACAT CGTTCGGGAT
CTTGGTGAAG ACGTTCTTGC CGAAGAAAAA GCTATCACGG ATGAAGGCAA AGCGGCGCAG
GAGGAAGCCA AGAAGGAGGA AGAGACCAGC GATGCTGATG CGTCTCACGC TGAGTCGGAG
AAGTCGACTG CTGAGACGCC CCGTGTGGCG TTGAAGGTCC CTGAGAGTGT GCATGTCCGT
ATCGGCAAGG ACAGCTTGAC TGACTATGTT GGTCCTCCGA TTTTTACCTC TGATCGATTG
TATGAGACGT TCCCGCCTGG TGTGACTATG GGCCTCGCGT GGACTAGCAT GGGAGGTGCG
GCCTTGTATG TTGAGTCCAT TCTGGAGAAC GCTTTGACAG CCGAGTCTCG CCCGGGCATC
GAAATTACTG GCAACCTGCA GAACGTGATG AAGGAATCAT CCCACATCGC ATACTCTTTT
GCGAAGTCGG TGATGGCTCG TGAATTCCCG GAGAACAGAT TCTTTGAAAA GGCGAAGTTG
CATATGCATT GCCCGGAGGG TGCTGTTCCG AAGGATGGAC CCTCGGCCGG TATTACAATG
GCCACCTCTC TCCTTTCCCT GGCGCTGAAC CACCCTCTCG ATCCGACAAT TGCCATGACC
GGTGAGTTGA CGGTTACTGG AAAGGTGCTG CGTATTGGTG GACTCCGAGA GAAGACTGTT
GCTGCTCGCC GTGCTGGTGC GACGAAGATC ATCTTCCCTG CCGATAACAT GTCCGATTGG
CTGGAACTTC CTGAGAACAT CAAAGAAGGC ATCGAAGGCC ATCCCGCGAG CTGGTACTCC
GAAGTGTTCG ACATCCTGTT TGCCGACCTG GACAAGAACG CTGCCAACCA GATGTGGAAG
AAGCAGCTCA AGGAGGCCCC GAAGAAGTCC AAGGAATCTC ACGAGGAAGA AGACGACTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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